Contents

Members of this genus range in size from only 50–60 cm (C. intermedius, C. pricei), to over 150 cm (C. adamanteus, C. atrox).[3] In general, adult males are slightly larger than females. Compared to most snakes, they are heavy-bodied, although some African vipers are much thicker.[5] Most forms are easily recognized by the characteristic rattle on the end of their tails, although a few island populations form exceptions to this rule: C. catalinensis has lost its rattle entirely, C. ruber lorenzoensis usually has no rattle, and both C. r. lucasensis and C. molossus estebanensis exhibit a tendency for rattle loss. The rattle may also be lacking in any species due to a congenital abnormality.[3]

The rattle

The rattle consists of a series of loosely interlocking hollow shells, each of which was at one point the scale covering the tip of the tail. In most other snakes, the tail tip, or terminal spine, is cone-shaped, hardly any thicker than the rest of the skin, and is shed along with it at each successive molt. In this case, however, the end-scale, or "button", is much thicker and shaped like a bulb, with one or two annular constrictions to prevent it from falling off. Before each molt, a new button will have developed inside the last one and before the skin is shed, the tip of new button shrinks, thereby loosening the shell of the previous one. This process continues so the succession of molts produces an appendage consisting of a number of interlocking segments that make an audible noise when vibrated. Since younger specimens may shed three or four times in a year, every time adding a new segment to the rattle, the number of segments bears no relation to the age of the snake. In theory, the rattle could become very long indeed, but in practice, the older segments tend to wear out and fall off. How quickly this happens depends on the snake's environment, but end segments tend to break off after the rattle becomes about six or seven segments long; it is uncommon to find specimens with as many as a dozen segments. In captive specimens, however, as many as 29 segments have been found.[6][7]

No species is considered aggressive; when threatened, most will retreat quickly. However, most species will defend themselves readily when cornered.[3]

How far these snakes can strike has been controversial. Obviously this depends on the size of the animal, but other factors may also play a role, such as the species, the position of the body, and the degree of excitement. Additionally, there is the question of definition: from which point on the snake should a strike be measured: from the front, the middle, or the back of the anchor coil on the ground? Even if the length of the specimen is known, once it strikes, it is almost impossible to determine the limiting point reached by its head and the position of its body when the movement started. Therefore, it is not surprising that many conflicting statements can be found in the available literature about how far these snakes can strike. Estimates have been given that range from one-third of the body length, to half, three-quarters or even the full length of the animal. They rarely strike further than half of their body length, and almost never more than three-fourths, but that it is still not wise to trust such values if only because it is not possible to accurately judge the length of a coiled snake.[5]

Their diets generally consist of vertebrates, although many invertebrate species have also been consumed. Smaller species feed mainly on lizards, while larger species start by feeding on lizards as juveniles and then switch to preying mainly on mammals as adults. Prey items more frequently taken include rabbits, ground squirrels, tree squirrels, chipmunks, prairie dogs, gophers, and rats and mice,[8] while those less frequently taken include birds, snakes, and amphibians. Cannibalism has been reported in a number of different species. Individuals that feed on rodents usually release their prey after a strike, and these snakes evidently can discriminate between trails left by prey that has or has not been envenomated.[3]:506

For all species, the most significant threats come from people, but they also face many natural enemies. These include other snakes, such as king snakes (Lampropeltis), coachwhips (Masticophis), indigo snakes (Drymarchon) and racers (Coluber), birds, such as hawks, eagles, owls, roadrunners, and ravens, and mammals, such as coyotes, foxes, wildcats, badgers, skunks and pigs.[9] Certain species of birds frequently prey on these snakes, but this is not without risk. Two cases were reported in which dead hawks found near venomous snakes had suffered hemorrhage and gangrenous necrosis due to snakebite.[3]:514

This genus is ovoviviparous, giving birth to live young.[5] The basic lifecycle of many Nearctic species has been known for quite some time. Females at an age of 26 months undergo vitellogenesis as they enter their third hibernation,[10] mate the following spring, and give birth later in September or October.[3]:516

A number of variations to this basic cycle occur. In North America, the females of some species store sperm in their oviducts for at least eight months, and the males (all species of which undergo spermatogenesis during the summer) store sperm in the vas deferens for at least a year. Thus, species that store sperm for a shorter duration mate in the spring and store sperm in the vas deferens, while those that do so for a longer duration mate in the fall and store sperm in the oviduct over the winter, after which fertilization occurs the following spring.[3]:516 In addition, species that occur further north, where it is colder during much of the year and the feeding and growing season is short, may reproduce only every other year or less. Those found in central and southern Mexico or the tropics have reproductive cycles that correspond mostly with the rainy season.[3]:519

Two main hemotoxic effects are caused by rattlesnake venom. First, zinc-containing metalloproteases act upon capillary endothelial cells to cause platelet aggregation and hemorrhage.[11] Second, the platelet antagonist crotalin creates a severe bleeding effect as it binds to the surface proteins, blocking aggregation.[12] These two starkly different effects may seem counterproductive, but the effect should be profound. Firstly, endothelial-cell disruption causes lysis and internal bleeding. Then, as these hemorrhages increase, the natural thrombin response is hindered by the effect of crotalin increasing the toxic effect. Their observed hunting technique is a bite-and-release method, so a fast-acting toxin would be ideal. Assuming the natural median prey would be a small rodent such as a mouse, the bite would elicit a fear response, quickening heart rate and increasing blood pressure. This would speed the toxic effect, as well as spread the hemolytic and hemorrhagic effects.

Neurotoxic effects may also be caused by rattlesnake venom. These effects vary by species, and within species by population.[13]

The southwestern United States in the desert region of eastern California, southern Nevada, extreme southwestern Utah, and western Arizona, northwestern Mexico in western Sonora and eastern Baja California

Western Mexico on the Baja California Peninsula from around Río San Telmo on the west coast and from opposite Isla Angel de la Guarda on the gulf coast, south to Cabo San Lucas, on the following islands in the Gulf of California: San Marcos, Carmen, San José, San Francisco, Partida del Sur, Espírita Santo, and Cerralvo, off the Pacific coast on the island of San Margarita

The southwestern United States in east-central and southern California, southwestern Nevada, extreme southwestern Utah, and western Arizona, in Mexico in most of Baja California, including Baja California Sur, on a number of islands in the Gulf of California and on Santa Margarita Island off the Pacific coast of Baja California Sur

Southwestern Canada (southern British Columbia), south though much of the western half of the United States (Washington, Oregon, western and southern Idaho, California, Nevada, Utah, Arizona, and likely west-central New Mexico), and into northern Mexico (western Baja California (state) and the extreme north of Baja California Sur)[3]

The US in southwestern California, south through the Baja California Peninsula, except in the desert east of the Sierra de Juárez, also on a number of islands in the Gulf of California and two islands off the west coast of Baja California Sur

Mexico, along the southern edge of the Mexican Plateau in the highlands of the Transverse Volcanic Cordillera, including the states of Nayarit, Jalisco, Michoacán, Morelos, México, Puebla, Tlaxcala, and Veracruz

^ abcKlauber LM. 1997. Rattlesnakes: Their Habitats, Life Histories, and Influence on Mankind. Second Edition. First published in 1956, 1972. University of California Press, Berkeley. ISBN 0-520-21056-5.

Cope ED. 1867. On the Reptilia and Batrachia of the Sonoran province of the Nearctic region. Proceedings of the Academy of Natural Science of Philadelphia 18: 300-314[310].

Cope ED. 1883. Notes on the geographical distribution of batrachia and reptilia in western North America. Proceedings of the Academy of Natural Science of Philadelphia 35: 10-35[13].

Coues E. 1875. Synopsis of the Reptiles and Batrachians of Arizona; with Critical and Field Notes, and an Extensive Synonymy, p. 585-633.[609]. In Wheeler GM. 1875. Report Upon Geographical and Geological Explorations and Surveys West of the One Hundredth Meridian. Volume V. Zoology: Reports Upon the Zoological Collections Obtained from Portions of Nevada, Utah, California, Colorado, New Mexico, and Arizona, During the Years 1871, 1872, 1873, and 1874. Government Printing Office, Washington, DC.